Kolmogorov's three-series theorem: Difference between revisions

Revision as of 17:47, 27 January 2014

In set theory and mathematical logic, the Lévy hierarchy, introduced by Azriel Lévy in 1965, is a hierarchy of formulas in the formal language of the Zermelo–Fraenkel set theory, which is typically called just the language of set theory (LST). This is analogous to the arithmetical hierarchy which provides the classifications but for sentences of the language of arithmetic.

In LST, atomic formulas are of the form x = y or x ∈ y, standing for equality and respectively set membership predicates. (It is possible to even define equality within ZF by slightly different formulation of one of the axioms, although that issue has no impact on the topic of this article.)

The first level of the Levy hierarchy is defined as containing only formulas in which all quantifiers are bounded, meaning only of the form $\forall x \in y$ and $\exists x \in y$ . This level of the Levy hierarchy is denoted by any and all of Δ₀, Σ₀, Π₀. Then Σ_n+1 is defined as

Examples

Σ₀-formulas:

x = {y, z}
x ⊆ y
x is a transitive set
x is an ordinal

Σ₁-formulas:

x is countable
x is finite

Π₁-formulas:

Δ₁-formulas:

x is a well-founded relation on y

Σ₂-formulas:

the Continuum Hypothesis (and its negation)
there exists an inaccessible cardinal
there exists a measurable cardinal
V ≠ L

Properties

Jech p. 184 Devlin p. 29

References

Joan Bagaria, A gentle introduction to the theory of large cardinals
Devlin, Constructibility pp. 27–30
A. Lévy. A hierarchy of formulas in set theory. Mem. Am. Math. Soc., 57 (1965)

76 pp.

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+{{Expert-subject|Set theory|date=December 2012}}
+In [[set theory]] and [[mathematical logic]], the '''Lévy hierarchy''', introduced by [[Azriel Lévy]] in 1965, is a hierarchy of formulas in the [[formal language]] of the [[Zermelo–Fraenkel set theory]], which is typically called just the language of set theory (LST). This is analogous to the [[arithmetical hierarchy]] which provides the classifications but for sentences of the language of arithmetic.
+In LST, [[atomic formula]]s are of the form x = y or x ∈ y, standing for [[Equality (mathematics)|equality]] and respectively [[set membership]] predicates. (It is possible to even [[First-order_logic#Defining_equality_within_a_theory|define equality within ZF]] by slightly different formulation of one of the axioms, although that issue has no impact on the topic of this article.)
+The first level of the Levy hierarchy is defined as containing only formulas in which all quantifiers are [[Bounded_quantifier#Bounded_quantifiers_in_set_theory|bounded]], meaning only of the form <math>\forall x \in y</math> and <math>\exists x \in y</math>. This level of the Levy hierarchy is denoted by any and all of Δ<sub>0</sub>, Σ<sub>0</sub>, Π<sub>0</sub>. Then Σ<sub>n+1</sub> is defined as
+== Examples ==
+Σ<sub>0</sub>-formulas:
+* x = {y, z}
+* x ⊆ y
+* ''x'' is a [[transitive set]]
+* ''x'' is an [[Ordinal number|ordinal]]
+Σ<sub>1</sub>-formulas:
+* ''x'' is [[Countable set|countable]]
+* ''x'' is finite
+Π<sub>1</sub>-formulas:
+* ''x'' is a [[cardinal number|cardinal]]
+* ''x'' is a [[regular cardinal]]
+* ''x'' is a [[limit cardinal]]
+Δ<sub>1</sub>-formulas:
+* ''x'' is a [[well-founded relation]] on ''y''
+Σ<sub>2</sub>-formulas:
+* the [[Continuum Hypothesis]] (and its negation)
+* there exists an [[inaccessible cardinal]]
+* there exists a [[measurable cardinal]]
+* ''[[Von Neumann universe|V]]'' ≠ ''[[Constructible universe|L]]''
+== Properties ==
+Jech p.&nbsp;184
+Devlin p.&nbsp;29
+== See also ==
+* [[arithmetic hierarchy]]
+* [[Absoluteness]]
+== References ==
+* Joan Bagaria, [http://www.imub.ub.es/hocard11/Bagaria_slides.pdf A gentle introduction to the theory of large cardinals]
+* Devlin, Constructibility pp.&nbsp;27–30
+* A. Lévy. A hierarchy of formulas in set theory. Mem. Am. Math. Soc., 57 (1965)
+pp.
+{{DEFAULTSORT:Levy hierarchy}}
+[[Category:Mathematical logic]]
+[[Category:Set theory]]
+{{settheory-stub}}

Kolmogorov's three-series theorem: Difference between revisions

Revision as of 17:47, 27 January 2014

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Kolmogorov's three-series theorem: Difference between revisions

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